In focus - Markets

Trash talk: why waste might not be wasted

With consumers showing few signs of cutting down on the waste they create, we look at how our rubbish can be used to produce energy and reduce the use of fossil fuels.

01.04.2019

Nobody wants to see it, but it is everywhere. The volume of municipal solid waste - consisting of discarded everyday items - is set to almost double from 1.3 billion tonnes to 2.2 billion tonnes by 2025 according to the World Bank1.

That growth implies an increase from 1.2kg to 1.4kg per person per day over the next 15 years2. Oceans will contain more plastic than fish by 2050, according to World Economic Forum estimates, emphasizing the scale of the challenge3.

Rising incomes and more urban populations play a critical role, accelerating the amount of solid waste produced. The developed nations of the Organisation for Economic Co-operation and Development (OECD) generate almost half of all global waste.

Waste generation per capita, per day

waste_per_day_global

Source: World Bank, March 2012

Another man’s treasure

Increasingly, however, waste is being seen for what it could be: a valuable commodity. A tonne of solid waste can generate 500-600kWh of electricity. With roughly 700 million tonnes of waste generated in OECD countries annually4, this implies approximately 370,000 GWh of electricity potential, approximately 35% of which is currently sent to landfill sites5. Turning all this solid waste into electricity could reduce electricity generated from fossil fuels in the OECD by approximately 6%, which is – depending on the fuel mix – approximately equivalent to eliminating all greenhouse gas emissions of Norway, Portugal and the Slovak Republic combined.

The amount of carbon dioxide that converting waste could save

Annual tCO2e emissions (thousands)

Co2_fossil_vs_waste_conversion

Source: WTET, Columbia University

It is of course, a complex topic. There is no one-size-fits-all solution to the waste-to-energy conundrum and capturing value will almost certainly be less straight forward than our estimates suggest. Not all waste is equally suitable for generating energy of any sort. Our simplified example above just outlines the potential scale of the opportunity to extract value by reprocessing waste productively.

However, regulators and corporates are increasingly aware of the possibility to cut the impact upon global emissions significantly, and their actions, along with improving technologies, provide increasingly attractive business opportunities.

The field is likely to continue to evolve; technologies range from traditional burning of waste for heat to newer approaches like plastic eating bacteria6, with new ideas continuing to emerge. Regardless of the technology used, consumers are showing few signs of cutting down their consumption or the waste they create. Turning trash into treasure looks crucial in limiting temperature increases to 2°C.


1. https://siteresources.worldbank.org/INTURBANDEVELOPMENT/Resources/336387-1334852610766/Chap3.pdf

2. https://siteresources.worldbank.org/INTURBANDEVELOPMENT/Resources/336387-1334852610766/Chap3.pdf

3. http://www3.weforum.org/docs/WEF_The_New_Plastics_Economy.pdf

4. https://stats.oecd.org/Index.aspx?DataSetCode=MUNW

5. http://www.oecd.org/daf/competition/Waste-management-services-2013.pdf

6. https://www.independent.co.uk/environment/plastic-eating-bacteria-pollution-crisis-environment-microbes-student-a8423146.html